Abstract
Reported here is a successful strategy for the design of ultrabright red luminogens with aggregation-induced emission (AIE) features, donor-acceptor structures, and intense charge transfer effects. These luminogens show no aggregation caused emission quenching in the solid state and have high quantum efficiency. They can be fabricated into AIE dots by a simple nanoprecipitation procedure. The AIE dots exhibit high brightness, a large Stokes shift, good biocompatibility, satisfactory photostability, and a high two-photon absorption cross section. The AIE dots can be utilized as highly efficient fluorescent probes for in vivo deep-tissue imaging by a two-photon technique, which outperforms the one-photon technique under the same experimental conditions, in terms of penetration depth and image contrast. This is the first report of using highly emissive AIE dots for the accurate measurement of capillary diameters in mouse ears. Such a strategy sheds light on the development of efficient solid state red/NIR emitters for biological applications.
Highlights
Fluorescence imaging is a powerful visualization method that enables real-time following and monitoring of biological processes in vivo.[1]
Two-photon excited uorescence We investigated the two-photon absorption spectrum of aggregationinduced emission (AIE) dots in water at wavelengths from 800 to 1000 nm
New red-emissive AIE luminogens with insigni cant solution emission but efficient aggregate-state PL were designed and synthesized through the enhancement of charge transfer capability and the introduction of stronger D–A interactions
Summary
Fluorescence imaging is a powerful visualization method that enables real-time following and monitoring of biological processes in vivo.[1]. The AIE dots can be utilized as efficient uorescent probes for one and two-photon blood vasculature imaging in mouse ears. This is the rst report of using highly emissive AIE dots for the accurate measurement of capillary diameters in mouse ears.
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